A grand family of two-dimensional (2D) materials and their heterostructures have been
discovered through the extensive experimental and theoretical efforts of chemists, material …

Atomic defects, being the most prevalent zero-dimensional topological defects, are
ubiquitous in a wide range of 2D transition-metal dichalcogenides (TMDs). They could be …

Abstract 2D materials show wide‐ranging physical properties with their electronic bandgaps
varying from zero to several electronvolts, offering a rich platform to explore novel electronic …

Nanostructured surfaces with designed optical functionalities, such as metasurfaces, allow
efficient harvesting of light at the nanoscale, enhancing light–matter interactions for a wide …

Material integration strategies, such as epitaxial growth, usually involve strong chemical
bonds and are typically limited to materials with strict structure matching and processing …

Photoacoustic (PA) imaging as a fast‐developing imaging technique has great potential in
biomedical and clinical applications. It is a noninvasive imaging modality that depends on …

Plasmonic nanostructures possessing unique and versatile optoelectronic properties have
been vastly investigated over the past decade. However, the full potential of plasmonic …

Low-dimensional materials and their hybrids have emerged as promising candidates for
electrocatalytic and photocatalytic hydrogen evolution and CO2 conversion into useful …

Two-dimensional layered materials (2DLMs) have been a central focus of materials
research since the discovery of graphene just over a decade ago. Each layer in 2DLMs …

The exfoliation and identification of the two-dimensional (2D) single atomic layer of carbon
have opened the opportunity to explore graphene and related 2D materials due to their …